CN105268804A - Multi-station integrated processing apparatus for photovoltaic frame - Google Patents
Multi-station integrated processing apparatus for photovoltaic frame Download PDFInfo
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- CN105268804A CN105268804A CN201510705097.0A CN201510705097A CN105268804A CN 105268804 A CN105268804 A CN 105268804A CN 201510705097 A CN201510705097 A CN 201510705097A CN 105268804 A CN105268804 A CN 105268804A
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Abstract
The invention belongs to the technical field of machining, particularly relates to a multi-station integrated processing apparatus for a photovoltaic frame, and solves the problems that the design is unreasonable in the prior art and the like. The multi-station integrated processing apparatus for a photovoltaic frame comprises a rack, wherein a rotating shaft which is horizontally arranged and can rotate relative to the rack is arranged on the rack; a clamping mechanism which is fixedly connected with the periphery of the rotating shaft and provided with a plurality of clamping stations is arranged on the rotating shaft; each clamping station of the clamping mechanism can be used for clamping a photovoltaic frame in horizontal distribution; and the rack is also provided with two movable punching processing devices which are respectively located at two sides of the clamping mechanism and used for processing the photovoltaic frame. The multi-station integrated processing apparatus for the photovoltaic frame has the advantages that the occupied space is greatly reduced; the processing efficiency and precision are improved; and the practicability is strong.
Description
Technical field
The invention belongs to Machining Technology field, particularly relate to a kind of Multi-station integral process equipment of photovoltaic frame.
Background technology
Photovoltaic frame is list structure, is processed with comprises breach and connecting hole etc. structure at the two ends of photovoltaic frame.At present, existing processing mode is that the mode of the corresponding procedure of processing of an equipment is processed, although this processing mode can meet production and processing requirement to a certain extent, but, also at least there is following defect in this processing mode: production efficiency is lower and the labour intensity of operator is higher, cannot meet batch production requirements, secondly, the spatial area that production line takies is larger.
Such as, Chinese patent discloses the flexible machining cell automatically of a kind of photovoltaic module aluminium frame, application number [201510297798.5], and it relates to relevant photovoltaic panel component aluminum frame manufacture technology field in photovoltaic industry; Feed system, section material system, corner brace impression system, water falling hole stamping system, installing hole and terrestrial reference stamping system, feed system, hydraulic system are all connected with control system, and hydraulic system is connected with hydraulic pressure executive item by fluid pressure line with corner brace impression system, water falling hole stamping system, installing hole and terrestrial reference stamping system; The uniformity of program product is good, and precision is high, and quality is good; Change mold process simple, efficient; Automatization level is high, and processing efficiency is high; Low cost of manufacture.
Although above-mentioned scheme has above plurality of advantages, particularly reduce the labour intensity of operator, such scheme needs to take larger spatial area, and secondly, production efficiency is lower and machining accuracy is poor, impracticable.
Summary of the invention
The object of the invention is for the problems referred to above, provide a kind of volume little, significantly improve production efficiency and machining accuracy, the Multi-station integral process equipment of practical photovoltaic frame.
For achieving the above object, present invention employs following technical proposal: the Multi-station integral process equipment of this photovoltaic frame comprises frame, frame is provided with and is horizontally disposed with and the rotating shaft of the relative gantry rotation of energy, rotating shaft is provided with and is fixedly connected with rotating shaft circumference and there is the upset clamping device of some clamping stations, each holder's potential energy on this upset clamping device clamps a photovoltaic frame in horizontal distribution respectively, described frame is also provided with two and lays respectively at the upset both sides of clamping device and the removable processing unit (plant) for processing described photovoltaic frame.
In this application, the upset clamping device of some clamping stations is combined owing to being provided with rotating shaft, the scheduling time between each procedure of processing can be shortened, virtually improve working (machining) efficiency, the phenomenon causing the accuracy of manufacture to reduce due to location repeatedly can also be avoided simultaneously, namely also improve machining accuracy, constant product quality is good; Working (machining) efficiency can be improved further owing to being provided with two removable processing unit (plant)s; In addition, the structural design of integral type significantly reduces the volume of complete machine, more practical.
In the Multi-station integral process equipment of above-mentioned photovoltaic frame, described upset clamping device is hinged with some with described clamping station swing arm one to one, described swing arm the inner is provided with can with photovoltaic frame surface contact and when swing arm when clamping device rotates, radial deformation can occur also oppress the resilient locking element on photovoltaic frame relative to overturning under external force.
In the Multi-station integral process equipment of above-mentioned photovoltaic frame, described frame is provided with and can contacts with the swing arm outer end near human body side when rotating shaft drives upset clamping device to rotate with swing arm at every turn thus to make swing arm relative to the radial deformation drive unit overturning clamping device and rotate, and the resilient locking element being arranged on this swing arm the inner after swing arm outer end departs from radial deformation drive unit is oppressed on photovoltaic frame.
In the Multi-station integral process equipment of above-mentioned photovoltaic frame, described frame is also provided with when rotating shaft drive described photovoltaic frame rotate and removable processing unit (plant) can contact with the swing arm outer end of bottom at every turn thus make resilient locking element depart from the disengaging stripper of photovoltaic frame after all processing is completed to photovoltaic frame.
In the Multi-station integral process equipment of above-mentioned photovoltaic frame, described swing arm is L-shaped, the knee of this swing arm is overturning on clamping device by stud connection, offer in the inner outside of swing arm and to arrange and opening is open locating slot along swing arm width, described resilient locking element is column and inserts in described locating slot, and described resilient locking element external diameter is greater than the bore of locating slot opening part and resilient locking element portion sides protrudes from outside the opening of locating slot.
In the Multi-station integral process equipment of above-mentioned photovoltaic frame, described upset clamping device comprises two symmetrically arranged fixed disks, some installation gaps are respectively equipped with, the installation gap on a fixed disk in two fixed disks and the installation gap one_to_one corresponding on another one fixed disk thus clamping station described in being formed in the circumference of each fixed disk; Be respectively equipped with in each installation gap and there is the anti-of clamp port hinder wear-resistant block.Anti-wear-resistant block of hindering is made up of engineering plastics etc. material.
In the Multi-station integral process equipment of above-mentioned photovoltaic frame, each fixed disk is hinged with respectively and installation gap swing arm one to one; Described radial deformation drive unit to comprise between two fixed disks and the T-shaped support body that can contact with swing arm outer end respectively; Described disengaging stripper is positioned at the below of described fixed disk.
In the Multi-station integral process equipment of above-mentioned photovoltaic frame, described frame is provided with and can transfers near the automatic feeding mechanism on the clamping station of human body side by generation processing photovoltaic frame; Described frame is also provided with the lift material receiving mechanism this photovoltaic frame can accepted when resilient locking element departs from photovoltaic frame and described photovoltaic frame departs from clamping station under gravity.
In the Multi-station integral process equipment of above-mentioned photovoltaic frame, described removable processing unit (plant) comprises the translation base be connected with housing slide, translation base is provided with the through hole passed for rotating shaft, between frame and translation base, be provided with the driving mechanism that can drive the relative machine frame movement of described translation base, translation base is provided with some punch process moulds.
In the Multi-station integral process equipment of above-mentioned photovoltaic frame, described frame is provided with chute away from the side of human body, and described translation base is provided with auxiliary stand, is slidably connected between described chute and auxiliary stand.
Compared with prior art, the advantage of the Multi-station integral process equipment of this photovoltaic frame is: 1, design is more reasonable, the upset clamping device of some clamping stations is combined owing to being provided with rotating shaft, the scheduling time between each procedure of processing can be shortened, virtually improve working (machining) efficiency, can also avoid the phenomenon causing the accuracy of manufacture to reduce due to location repeatedly, namely also improve machining accuracy, constant product quality is good simultaneously; Working (machining) efficiency can be improved further owing to being provided with two removable processing unit (plant)s; In addition, the structural design of integral type significantly reduces the volume of complete machine, more practical.2, structure is simple and be easy to processing and manufacturing.3, long service life.
Accompanying drawing explanation
Fig. 1 is structural representation provided by the invention.
Fig. 2 is the structural representation after removing cover body provided by the invention.
Fig. 3 is the A place structure for amplifying schematic diagram in Fig. 2.
Fig. 4 is the structural representation after swing arm provided by the invention and resilient locking element decompose.
Fig. 5 is another viewing angle constructions schematic diagram after removing cover body provided by the invention.
Fig. 6 is partial structurtes schematic diagram provided by the invention.
Fig. 7 is the structural representation that rotating shaft provided by the invention combines upset clamping device.
In figure, frame 1, chute 11, grating sensor 12, cover body 13, rotating shaft 2, rotation drive structure 21, upset clamping device 3, swing arm 31, locating slot 31a, resilient locking element 32, fixed disk 3a, installation gap 33, anti-ly hinder wear-resistant block 34, removable processing unit (plant) 4, translation base 41, driving mechanism 42, punch process mould 43, lifting drive source 45, radial deformation drive unit 5, T-shaped support body 51, depart from stripper 6, automatic feeding mechanism 7, cantilever slab 71, swing arm 72, feathering axis 73, rotating shaft 74, reinforced company's joint chair 75, holder 76, drive rod 77, horizontal feed arm 78, lift material receiving mechanism 8, U-shaped splicing frame 81, photovoltaic frame a.
Detailed description of the invention
Below in conjunction with the drawings and specific embodiments, the present invention will be further described in detail.
As shown in figures 1 to 6, the Multi-station integral process equipment of this photovoltaic frame comprises frame 1, and frame 1 is provided with and is horizontally disposed with and the rotating shaft 2 can rotated relative to frame 1, described rotating shaft 2 is connected with the rotation drive structure 21 that it can be driven to rotate.Particularly, rotation drive structure 21 here comprises the drive motors being connected to rotating shaft 2 one end, and described drive motors is connected with rotating shaft 2 by decelerator or V belt translation structure.
Rotating shaft 2 is provided with and is fixedly connected with rotating shaft 2 circumference and there is the upset clamping device 3 of some clamping stations, each holder's potential energy on this upset clamping device 3 clamps a photovoltaic frame a in horizontal distribution respectively, prioritization scheme, upset clamping device 3 is hinged with some with described clamping station swing arm 31 one to one, described swing arm 31 the inner is provided with can with photovoltaic frame a surface contact and when swing arm 31 radial deformation can occur when clamping device 3 rotates relative to overturning and oppress the resilient locking element 32 on photovoltaic frame a under external force.Resilient locking element 32 is made up of rubber etc. material.This swing arm 31 is L-shaped, the knee of this swing arm 31 is overturning on clamping device 3 by stud connection, offer in the inner outside of swing arm 31 and to arrange and opening is open locating slot 31a along swing arm 31 width, described resilient locking element 32 is in column and insert in described locating slot 31a, and described resilient locking element 32 external diameter is greater than the bore of locating slot 31a opening part and resilient locking element 32 portion sides protrudes from outside the opening of locating slot 31a.The structure that resilient locking element 32 external diameter is greater than the bore of locating slot 31a opening part can prevent resilient locking element 3 from departing from locating slot 31a voluntarily.
In order to mechanization auto lock can be realized, frame 1 is provided with and can contacts with swing arm 31 outer end near human body side when rotating shaft 2 drives upset clamping device 3 to rotate with swing arm 31 at every turn thus to make swing arm 31 relative to the radial deformation drive unit 5 overturning clamping device 3 and rotate, and the resilient locking element 32 being arranged on this swing arm 31 the inner after swing arm 31 outer end departs from radial deformation drive unit 5 is oppressed on photovoltaic frame a.
Frame 1 is also provided with two and lays respectively at the upset both sides of clamping device 3 and the removable processing unit (plant) 4 for processing described photovoltaic frame a.Secondly, in order to mechanization automatic discharging can be realized, frame 1 is also provided with when rotating shaft 2 drive described photovoltaic frame a rotate and removable processing unit (plant) 4 couples of photovoltaic frame a can contact with swing arm 31 outer end of bottom at every turn thus make resilient locking element 32 depart from the disengaging stripper 6 of photovoltaic frame a after completing all processing.
Particularly, as shown in Figure 3 and Figure 7, the upset clamping device 3 of the present embodiment comprises two symmetrically arranged fixed disk 3a, the clamping station of installation gap on a fixed disk 3a in some installation gaps 33, two fixed disk 3a 33 with installation gap 33 one_to_one corresponding on another one fixed disk 3a thus described in being formed is respectively equipped with in the circumference of each fixed disk 3a; Be respectively equipped with in each installation gap 33 and there is the anti-of clamp port hinder wear-resistant block 34.Anti-wear-resistant block of hindering is made up of engineering plastics etc. material.In addition, the clamping station of the present embodiment has four and is crossing distribution, i.e. upper and lower two and former and later two stations.Fixed disk 3a is provided with when removable processing unit (plant) 4 at every turn processing be positioned at photovoltaic frame on the clamping station of the top and be positioned at away from can relative to the buffer gear of fixed disk 3a movement during photovoltaic frame on the clamping station of human body side.Buffer gear comprises the first buffer structure being arranged on fixed disk 3a one side and the second buffer structure being arranged on fixed disk 3a another side.The buffering direction of the first buffer structure is different from the buffering direction of the second buffer structure and in crossing distribution.Be provided with buffer gear and can avoid the hard contact of photovoltaic frame in process, thus affect photovoltaic frame crudy.
First buffer structure comprises two symmetrically arranged first bumper bracket 3b, the one side being provided with the first bumper bracket 3b at fixed disk 3a is provided with the first fixing slide carriage 3c be set on the first bumper bracket 3b, between the first bumper bracket 3b and the first fixing slide carriage 3c, be provided with the first elastic component.Second buffer structure comprises two the symmetrically arranged second bumper bracket 3d being arranged on the other one side of fixed disk 3a, the one side being provided with the second bumper bracket 3d at fixed disk 3a is provided with the second fixing slide carriage 3e be set on the second bumper bracket 3d, between the second bumper bracket 3d and the second fixing slide carriage 3e, be provided with the second elastic component.Elastic component is spring.
As shown in figures 1 to 6, each fixed disk 3a is hinged with respectively and installation gap 33 swing arm 31 one to one; Described radial deformation drive unit 5 to comprise between two fixed disk 3a and the T-shaped support body 51 that can contact with swing arm 31 outer end respectively; Swing arm 31 outer end can contact with the transverse ends of T-shaped support body 51 respectively one to one.Secondly, the below that stripper 6 is positioned at described fixed disk 3a is departed from.Swing arm 31 outer end contacts and the rotation of rotating shaft thus make resilient locking element 32 depart from photovoltaic frame a and recover deformation with disengaging stripper 6 respectively one to one.Swing arm 31 is connected with anti-wear-resistant block 34 of hindering by hinge 35, hinge 35 is arranged with the torsion spring 36 that swing arm 31 can be driven to reset after swing arm 31 departs from described disengaging stripper 6, connects at anti-wear-resistant block 34 of hindering the spacer pin 37 being also provided with and can preventing the excessive movement of this swing arm 31 when swing arm 31 resets.The stepped axle of hinge 35, is provided with locking nut 38 and stop nut 39 at the little head end of hinge 35.
Prioritization scheme, frame 1 is provided with and can transfers near the automatic feeding mechanism 7 on the clamping station of human body side by photovoltaic frame a to be processed, automatic feeding mechanism 7 comprises and is arranged on the cantilever slab 71 of frame near two ends, human body side, every block cantilever slab 71 is respectively equipped with swing arm 72, described swing arm 72 one end is connected with the swing drive structure that it can be driven to swing, the other end is provided with and the feathering axis 73 that be rotationally connected vertical with swing arm, feathering axis 73 is provided with the holder 76 be fixedly connected with the horizontal body of rod 73 circumference, cantilever slab 71 is also provided with the rotating shaft 74 that energy opposing cantilevers plate 71 rotates, rotating shaft 74 is provided with reinforced company's joint chair 75, this automatic feeding mechanism 7 also comprises one and is located in the drive rod 77 be fixedly connected with on holder 76 and with holder 76, the rear end of drive rod 77 to be located on reinforced company's joint chair 75 and to be flexibly connected with reinforced company joint chair 75, horizontal feed arm 78 connected vertically is provided with drive rod 77 between the front end of described drive rod 77.Swing drive structure comprises the first transmission arm 72a be connected in swing arm 72, cantilever slab 71 is provided with wobble drive motor 71a, wobble drive motor 71a is connected with the second transmission arm 71b, the 3rd transmission arm 72b is connected with between the first transmission arm 72a and the second transmission arm 71b, one end and the first transmission arm 72a of the 3rd transmission arm 72b are hinged and connected, and the other end and the second transmission arm 71b of the 3rd transmission arm 72b are hinged and connected.
Frame 1 is also provided with the lift material receiving mechanism 8 this photovoltaic frame a can accepted when resilient locking element 32 departs from photovoltaic frame a and described photovoltaic frame a departs from clamping station under gravity.Lift material receiving mechanism 8 comprises the U-shaped splicing frame 81 be arranged on below described fixed disk 3a, and frame is provided with the lift actuator that described U-shaped splicing frame 81 can be driven to be elevated at vertical direction.Frame is provided with the conveyer belt 82 through described U-shaped splicing frame 81.Transferred to beyond equipment by conveyer belt 82 after photovoltaic frame is caught by U-shaped splicing frame 81.
In order to working (machining) efficiency can be improved further, removable processing unit (plant) 4 comprises the translation base 41 be slidably connected with frame 1, translation base 41 is provided with the through hole passed for rotating shaft 2, the driving mechanism 42 that described translation base 41 can be driven relative to frame 1 movement is provided with between frame 1 and translation base 41, driving mechanism 42 comprises the swivel nut be connected to bottom translation base 41, frame is provided with and can inserts in described swivel nut and the drive screw be threaded with swivel nut, drive screw is connected with screw drive motor, translation base 41 is provided with some punch process moulds 43.Each punch process mould 43 is respectively equipped with lifting drive source 45, lifting drive source is any one in cylinder, oil cylinder and electric cylinder.
Frame 1 is provided with chute 11 away from the side of human body, and described translation base 41 is provided with auxiliary stand 46, is slidably connected between described chute 11 and auxiliary stand.Secondly, frame 1 is also provided with cover body 13, cover body 13 plays protection and dust-proof etc. to act on.
In addition, frame is also provided with the reinforcement inserted link that can to insert in when punch process mould 43 pairs of photovoltaic frames carry out punch process in this photovoltaic frame.Strengthen inserted link have two and be inserted in photovoltaic frame from the two ends of photovoltaic frame, described reinforcement inserted link is connected with the drive unit that this reinforcement inserted link can be driven to insert in photovoltaic frame or make reinforcement inserted link detach photovoltaic frame.
The operation principle of the present embodiment is as follows: photovoltaic frame to be processed is delivered on the clamping station near human body side by automatic feeding mechanism 7, then axis of rotation, the resilient locking element 32 of swing arm 31 the inner is oppressed on photovoltaic frame a thus realizes photovoltaic frame a to fix by T-shaped support body 51, then carry out punch process by removable processing unit (plant) 4 couples of photovoltaic frame a; Prioritization scheme, frame and/or horizontal feed arm 78 are also provided with grating sensor 12, grating sensor 12 is vertical grating sensor, whenever automatic feeding mechanism 7 near on the clamping station of human body side carry a photovoltaic frame time grating sensor 12 can produce charging signal, namely rotating shaft stops operating, and removable processing unit (plant) 4 can continue punch process.
Prioritization scheme, the clamping station of the present embodiment has four and is circularly and evenly distributed, clamping station near human body side is feed station, be positioned at the top and be processing stations away from the clamping station of human body side, after rotating shaft often rotates 90 °, removable processing unit (plant) 4 is to being positioned at the top and processing away from the photovoltaic frame a on the clamping station of human body side, and the clamping station being positioned at bottom is unloading station.
Specific embodiment described herein is only to the explanation for example of the present invention's spirit.Those skilled in the art can make various amendment or supplement or adopt similar mode to substitute to described specific embodiment, but can't depart from spirit of the present invention or surmount the scope that appended claims defines.
Although more employ frame 1 herein, chute 11, grating sensor 12, cover body 13, rotating shaft 2, rotation drive structure 21, upset clamping device 3, swing arm 31, locating slot 31a, resilient locking element 32, fixed disk 3a, installation gap 33, anti-ly hinder wear-resistant block 34, removable processing unit (plant) 4, translation base 41, driving mechanism 42, punch process mould 43, auxiliary stand, lifting drive source 45, radial deformation drive unit 5, T-shaped support body 51, depart from stripper 6, automatic feeding mechanism 7, cantilever slab 71, swing arm 72, feathering axis 73, rotating shaft 74, reinforced company's joint chair 75, holder 76, drive rod 77, horizontal feed arm 78, lift material receiving mechanism 8, U-shaped splicing frame 81, the terms such as photovoltaic frame a, but do not get rid of the possibility using other term.These terms are used to be only used to describe and explain essence of the present invention more easily; The restriction that they are construed to any one additional is all contrary with spirit of the present invention.
Claims (10)
1. the Multi-station integral process equipment of a photovoltaic frame, comprise frame (1), it is characterized in that, described frame (1) is provided with and is horizontally disposed with and the rotating shaft (2) can rotated relative to frame (1), rotating shaft (2) is provided with and is fixedly connected with rotating shaft (2) circumference and there is the upset clamping device (3) of some clamping stations, each holder's potential energy on this upset clamping device (3) clamps a photovoltaic frame (a) in horizontal distribution respectively, described frame (1) is also provided with two and lays respectively at the both sides of upset clamping device (3) and the removable processing unit (plant) (4) for processing described photovoltaic frame (a).
2. the Multi-station integral process equipment of photovoltaic frame according to claim 1, it is characterized in that, described upset clamping device (3) is hinged with some with described clamping station swing arm (31) one to one, described swing arm (31) the inner is provided with can with photovoltaic frame (a) surface contact and when swing arm (31) radial deformation can occur when clamping device (3) rotates relative to overturning and oppress the resilient locking element (32) on photovoltaic frame (a) under external force.
3. the Multi-station integral process equipment of photovoltaic frame according to claim 2, it is characterized in that, described frame (1) is provided with and can contacts with swing arm (31) outer end near human body side when rotating shaft (2) drives upset clamping device (3) to rotate with swing arm (31) at every turn thus to make swing arm (31) relative to the radial deformation drive unit (5) overturning clamping device (3) and rotate, and after swing arm (31) outer end departs from radial deformation drive unit (5), be arranged on inner resilient locking element (32) compressing of this swing arm (31) on photovoltaic frame (a).
4. the Multi-station integral process equipment of photovoltaic frame according to claim 3, it is characterized in that, described frame (1) is also provided with when rotating shaft (2) drive described photovoltaic frame (a) rotate and removable processing unit (plant) (4) can contact with swing arm (31) outer end of bottom at every turn thus make resilient locking element (32) depart from the disengaging stripper (6) of photovoltaic frame (a) after all processing is completed to photovoltaic frame (a).
5. the Multi-station integral process equipment of the photovoltaic frame according to Claims 2 or 3 or 4, it is characterized in that, described swing arm (31) is L-shaped, the knee of this swing arm (31) is overturning on clamping device (3) by stud connection, offering opening in the inner outside of swing arm (31) is open locating slot (31a), described resilient locking element (32) is in column and insert in described locating slot (31a), described resilient locking element (32) external diameter is greater than the bore of locating slot (31a) opening part and resilient locking element (32) portion sides protrudes from outside the opening of locating slot (31a).
6. the Multi-station integral process equipment of photovoltaic frame according to claim 4, it is characterized in that, described upset clamping device (3) comprises two symmetrically arranged fixed disks (3a), some installation gaps (33) are respectively equipped with, installation gap (33) one_to_one corresponding on the installation gap (33) on a fixed disk (3a) in two fixed disks (3a) and another one fixed disk (3a) thus clamping station described in being formed in the circumference of each fixed disk (3a); Be respectively equipped with in each installation gap (33) and there is the anti-of clamp port hinder wear-resistant block (34).
7. the Multi-station integral process equipment of photovoltaic frame according to claim 6, is characterized in that, each fixed disk (3a) is hinged with respectively and installation gap (33) swing arm (31) one to one; Described radial deformation drive unit (5) comprises and to be positioned between two fixed disks (3a) and the T-shaped support body (51) that can contact with swing arm (31) outer end respectively; Described disengaging stripper (6) is positioned at the below of described fixed disk (3a).
8. the Multi-station integral process equipment of photovoltaic frame according to claim 4, it is characterized in that, described frame (1) is provided with and can will transfers near the automatic feeding mechanism (7) on the clamping station of human body side for processing photovoltaic frame (a); Described frame (1) is also provided with the lift material receiving mechanism (8) this photovoltaic frame (a) can accepted when resilient locking element (32) departs from photovoltaic frame (a) and described photovoltaic frame (a) departs from clamping station under gravity.
9. the Multi-station integral process equipment of photovoltaic frame according to claim 8, it is characterized in that, described removable processing unit (plant) (4) comprises the translation base (41) be slidably connected with frame (1), translation base (41) is provided with the through hole passed for rotating shaft (2), between frame (1) and translation base (41), be provided with the driving mechanism (42) that described translation base (41) can be driven relative to frame (1) movement, translation base (41) is provided with some punch process moulds (43).
10. the Multi-station integral process equipment of photovoltaic frame according to claim 9, it is characterized in that, described frame (1) is provided with chute (11) away from the side of human body, described translation base (41) is provided with auxiliary stand (46), is slidably connected between described chute (11) and auxiliary stand; Described rotating shaft (2) is connected with the rotation drive structure that it can be driven to rotate (21).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201510705097.0A CN105268804B (en) | 2015-10-27 | 2015-10-27 | The Multi-station integral process equipment of photovoltaic frame |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201510705097.0A CN105268804B (en) | 2015-10-27 | 2015-10-27 | The Multi-station integral process equipment of photovoltaic frame |
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| CN105268804A true CN105268804A (en) | 2016-01-27 |
| CN105268804B CN105268804B (en) | 2017-05-31 |
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| CN111151644A (en) * | 2020-01-19 | 2020-05-15 | 张家港易智自动化装备有限公司 | With punching machine complex photovoltaic module frame long limit unloading manipulator that punches a hole |
| CN113333867A (en) * | 2021-06-29 | 2021-09-03 | 英普锐机械(嘉兴)有限公司 | Positioning and cutting device for production of solar steel frame |
| CN113857377A (en) * | 2021-11-01 | 2021-12-31 | 泰州智脑机器人科技有限公司 | Full-automatic detection multi-station device for taking materials, pushing materials and stamping |
| CN116142720A (en) * | 2023-04-19 | 2023-05-23 | 昌邑市大华木业有限公司 | Material conveying equipment for photo frame assembly |
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